Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

618 lines
18 KiB

5 years ago
//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
// $NoKeywords: $
//=============================================================================//
#include "server.h"
#include "dt_stack.h"
#include "dt_localtransfer.h"
#include "mathlib/vector.h"
#include "edict.h"
#include "convar.h"
#include "con_nprint.h"
#include "utldict.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
#define PROP_INDEX_VECTOR_ELEM_MARKER 0x8000
static ConVar dt_UsePartialChangeEnts(
"dt_UsePartialChangeEnts",
"1",
0,
"(SP only) - enable FL_EDICT_PARTIAL_CHANGE optimization."
);
static ConVar dt_ShowPartialChangeEnts(
"dt_ShowPartialChangeEnts",
"0",
0,
"(SP only) - show entities that were copied using small optimized lists (FL_EDICT_PARTIAL_CHANGE)."
);
// Negative numbers represent entities that were fully copied.
static CUtlVector<int> g_PartialChangeEnts;
static int g_nTotalPropChanges = 0;
static int g_nTotalEntChanges = 0;
template<class T>
inline void LocalTransfer_FastType(
T *pBlah,
CServerDatatableStack &serverStack,
CClientDatatableStack &clientStack,
CFastLocalTransferPropInfo *pPropList,
int nProps )
{
CFastLocalTransferPropInfo *pCur = pPropList;
for ( int i=0; i < nProps; i++, pCur++ )
{
serverStack.SeekToProp( pCur->m_iProp );
unsigned char *pServerBase = serverStack.GetCurStructBase();
if ( pServerBase )
{
clientStack.SeekToProp( pCur->m_iProp );
unsigned char *pClientBase = clientStack.GetCurStructBase();
Assert( pClientBase );
const T *pSource = (const T*)( pServerBase + pCur->m_iSendOffset );
T *pDest = (T*)( pClientBase + pCur->m_iRecvOffset );
*pDest = *pSource;
}
}
}
void AddPropOffsetToMap( CSendTablePrecalc *pPrecalc, int iInProp, int iInOffset )
{
Assert( iInProp < 0xFFFF && iInOffset < 0xFFFF );
unsigned short iProp = (unsigned short)iInProp;
unsigned short iOffset = (unsigned short)iInOffset;
unsigned short iOldIndex = pPrecalc->m_PropOffsetToIndexMap.Find( iOffset );
if ( iOldIndex != pPrecalc->m_PropOffsetToIndexMap.InvalidIndex() )
{
return;
}
pPrecalc->m_PropOffsetToIndexMap.Insert( iOffset, iProp );
}
// This helps us figure out which properties can use the super-optimized mode
// where they are tracked in a list when they change. If their m_pProxies pointers
// are set to 1, then it means that this property is gotten to by means of SendProxy_DataTableToDataTable.
// If it's set to 0, then we can't directly take the property's offset.
class CPropMapStack : public CDatatableStack
{
public:
CPropMapStack( CSendTablePrecalc *pPrecalc, const CStandardSendProxies *pSendProxies ) :
CDatatableStack( pPrecalc, (unsigned char*)1, -1 )
{
m_pPropMapStackPrecalc = pPrecalc;
m_pSendProxies = pSendProxies;
}
bool IsNonPointerModifyingProxy( SendTableProxyFn fn, const CStandardSendProxies *pSendProxies )
{
if ( fn == m_pSendProxies->m_DataTableToDataTable ||
fn == m_pSendProxies->m_SendLocalDataTable )
{
return true;
}
if( pSendProxies->m_ppNonModifiedPointerProxies )
{
CNonModifiedPointerProxy *pCur = *pSendProxies->m_ppNonModifiedPointerProxies;
while ( pCur )
{
if ( pCur->m_Fn == fn )
return true;
pCur = pCur->m_pNext;
}
}
return false;
}
inline unsigned char* CallPropProxy( CSendNode *pNode, int iProp, unsigned char *pStructBase )
{
if ( !pStructBase )
return 0;
const SendProp *pProp = m_pPropMapStackPrecalc->GetDatatableProp( iProp );
if ( IsNonPointerModifyingProxy( pProp->GetDataTableProxyFn(), m_pSendProxies ) )
{
// Note: these are offset by 1 (see the constructor), otherwise it won't recurse
// during the Init call because pCurStructBase is 0.
return pStructBase + pProp->GetOffset();
}
else
{
return 0;
}
}
virtual void RecurseAndCallProxies( CSendNode *pNode, unsigned char *pStructBase )
{
// Remember where the game code pointed us for this datatable's data so
m_pProxies[ pNode->GetRecursiveProxyIndex() ] = pStructBase;
for ( int iChild=0; iChild < pNode->GetNumChildren(); iChild++ )
{
CSendNode *pCurChild = pNode->GetChild( iChild );
unsigned char *pNewStructBase = NULL;
if ( pStructBase )
{
pNewStructBase = CallPropProxy( pCurChild, pCurChild->m_iDatatableProp, pStructBase );
}
RecurseAndCallProxies( pCurChild, pNewStructBase );
}
}
public:
CSendTablePrecalc *m_pPropMapStackPrecalc;
const CStandardSendProxies *m_pSendProxies;
};
void BuildPropOffsetToIndexMap( CSendTablePrecalc *pPrecalc, const CStandardSendProxies *pSendProxies )
{
CPropMapStack pmStack( pPrecalc, pSendProxies );
pmStack.Init();
for ( int i=0; i < pPrecalc->m_Props.Count(); i++ )
{
pmStack.SeekToProp( i );
if ( pmStack.GetCurStructBase() != 0 )
{
const SendProp *pProp = pPrecalc->m_Props[i];
intp offset = pProp->GetOffset() + (intp)pmStack.GetCurStructBase() - 1;
5 years ago
int elementCount = 1;
int elementStride = 0;
if ( pProp->GetType() == DPT_Array )
{
offset = pProp->GetArrayProp()->GetOffset() + (intp)pmStack.GetCurStructBase() - 1;
5 years ago
elementCount = pProp->m_nElements;
elementStride = pProp->m_ElementStride;
}
if ( offset != 0 )
{
for ( int j = 0; j < elementCount; j++ )
{
if ( pProp->GetFlags() & SPROP_IS_A_VECTOR_ELEM )
{
AddPropOffsetToMap( pPrecalc, i | PROP_INDEX_VECTOR_ELEM_MARKER, offset );
}
else
{
AddPropOffsetToMap( pPrecalc, i, offset );
}
offset += elementStride;
}
}
}
}
}
void LocalTransfer_InitFastCopy(
const SendTable *pSendTable,
const CStandardSendProxies *pSendProxies,
RecvTable *pRecvTable,
const CStandardRecvProxies *pRecvProxies,
int &nSlowCopyProps, // These are incremented to tell you how many fast copy props it found.
int &nFastCopyProps
)
{
CSendTablePrecalc *pPrecalc = pSendTable->m_pPrecalc;
// Setup the offset-to-index map.
pPrecalc->m_PropOffsetToIndexMap.RemoveAll();
BuildPropOffsetToIndexMap( pPrecalc, pSendProxies );
// Clear the old lists.
pPrecalc->m_FastLocalTransfer.m_FastInt32.Purge();
pPrecalc->m_FastLocalTransfer.m_FastInt16.Purge();
pPrecalc->m_FastLocalTransfer.m_FastInt8.Purge();
pPrecalc->m_FastLocalTransfer.m_FastVector.Purge();
pPrecalc->m_FastLocalTransfer.m_OtherProps.Purge();
CRecvDecoder *pDecoder = pRecvTable->m_pDecoder;
int iNumProp = pPrecalc->GetNumProps();
for ( int iProp=0; iProp < iNumProp; iProp++ )
{
const SendProp *pSendProp = pPrecalc->GetProp( iProp );
const RecvProp *pRecvProp = pDecoder->GetProp( iProp );
if ( pRecvProp )
{
Assert( stricmp( pSendProp->GetName(), pRecvProp->GetName() ) == 0 );
CUtlVector<CFastLocalTransferPropInfo> *pList = &pPrecalc->m_FastLocalTransfer.m_OtherProps;
if ( pSendProp->GetType() == DPT_Int &&
(pSendProp->GetProxyFn() == pSendProxies->m_Int32ToInt32 || pSendProp->GetProxyFn() == pSendProxies->m_UInt32ToInt32) &&
pRecvProp->GetProxyFn() == pRecvProxies->m_Int32ToInt32 )
{
pList = &pPrecalc->m_FastLocalTransfer.m_FastInt32;
++nFastCopyProps;
}
else if( pSendProp->GetType() == DPT_Int &&
(pSendProp->GetProxyFn() == pSendProxies->m_Int16ToInt32 || pSendProp->GetProxyFn() == pSendProxies->m_UInt16ToInt32) &&
pRecvProp->GetProxyFn() == pRecvProxies->m_Int32ToInt16 )
{
pList = &pPrecalc->m_FastLocalTransfer.m_FastInt16;
++nFastCopyProps;
}
else if( pSendProp->GetType() == DPT_Int &&
(pSendProp->GetProxyFn() == pSendProxies->m_Int8ToInt32 || pSendProp->GetProxyFn() == pSendProxies->m_UInt8ToInt32) &&
pRecvProp->GetProxyFn() == pRecvProxies->m_Int32ToInt8 )
{
pList = &pPrecalc->m_FastLocalTransfer.m_FastInt8;
++nFastCopyProps;
}
else if( pSendProp->GetType() == DPT_Float &&
pSendProp->GetProxyFn() == pSendProxies->m_FloatToFloat &&
pRecvProp->GetProxyFn() == pRecvProxies->m_FloatToFloat )
{
Assert( sizeof( int ) == sizeof( float ) );
pList = &pPrecalc->m_FastLocalTransfer.m_FastInt32;
++nFastCopyProps;
}
else if ( pSendProp->GetType() == DPT_Vector &&
pSendProp->GetProxyFn() == pSendProxies->m_VectorToVector &&
pRecvProp->GetProxyFn() == pRecvProxies->m_VectorToVector )
{
pList = &pPrecalc->m_FastLocalTransfer.m_FastVector;
++nFastCopyProps;
}
else
{
++nSlowCopyProps;
}
CFastLocalTransferPropInfo toAdd;
toAdd.m_iProp = iProp;
toAdd.m_iRecvOffset = pRecvProp->GetOffset();
toAdd.m_iSendOffset = pSendProp->GetOffset();
pList->AddToTail( toAdd );
}
}
}
inline int MapPropOffsetsToIndices(
const CBaseEdict *pEdict,
CSendTablePrecalc *pPrecalc,
const unsigned short *pOffsets,
unsigned short nOffsets,
unsigned short *pOut )
{
int iOut = 0;
for ( unsigned short i=0; i < nOffsets; i++ )
{
unsigned short index = pPrecalc->m_PropOffsetToIndexMap.Find( pOffsets[i] );
if ( index == pPrecalc->m_PropOffsetToIndexMap.InvalidIndex() )
{
// Note: this SHOULD be fine. In all known cases, when NetworkStateChanged is called with
// an offset, there should be a corresponding SendProp in order for that NetworkStateChanged
// call to mean anything.
//
// It means that if we can't find an offset here, then there isn't a SendProp
// associated with the CNetworkVar that triggered the change. Therefore,
// the change doesn't matter and we can skip past it.
//
// If we wanted to be anal, we could force them to use DISABLE_NETWORK_VAR_FOR_DERIVED
// appropriately in all these cases, but then we'd need a ton of them for certain classes
// (like CBaseViewModel, which has a slew of CNetworkVars in its base classes that
// it doesn't want to transmit).
if ( dt_ShowPartialChangeEnts.GetInt() )
{
static CUtlDict<int,int> testDict;
char str[512];
Q_snprintf( str, sizeof( str ), "LocalTransfer offset miss - class: %s, DT: %s, offset: %d", pEdict->GetClassName(), pPrecalc->m_pSendTable->m_pNetTableName, pOffsets[i] );
if ( testDict.Find( str ) == testDict.InvalidIndex() )
{
testDict.Insert( str );
Warning( "%s\n", str );
}
}
}
else
{
unsigned short propIndex = pPrecalc->m_PropOffsetToIndexMap[index];
if ( propIndex & PROP_INDEX_VECTOR_ELEM_MARKER )
{
// Look for all 3 vector elems here.
unsigned short curOffset = pOffsets[i];
for ( int iVectorElem=0; iVectorElem < 3; iVectorElem++ )
{
index = pPrecalc->m_PropOffsetToIndexMap.Find( curOffset );
if ( index == 0xFFFF )
{
break;
}
else
{
propIndex = pPrecalc->m_PropOffsetToIndexMap[index];
if ( propIndex & PROP_INDEX_VECTOR_ELEM_MARKER )
pOut[iOut++] = (propIndex & ~PROP_INDEX_VECTOR_ELEM_MARKER);
}
curOffset += sizeof( float );
}
}
else
{
pOut[iOut++] = propIndex;
}
}
}
return iOut;
}
inline void FastSortList( unsigned short *pList, unsigned short nEntries )
{
if ( nEntries == 1 )
return;
unsigned short i = 0;
while ( 1 )
{
if ( pList[i+1] < pList[i] )
{
unsigned short tmp = pList[i+1];
pList[i+1] = pList[i];
pList[i] = tmp;
if ( i > 0 )
--i;
}
else
{
++i;
if ( i >= (nEntries-1) )
return;
}
}
}
inline void AddToPartialChangeEntsList( int iEnt, bool bPartial )
{
if ( !dt_ShowPartialChangeEnts.GetInt() )
return;
#if !defined( _XBOX )
if ( !bPartial )
iEnt = -iEnt;
if ( g_PartialChangeEnts.Find( iEnt ) == -1 )
g_PartialChangeEnts.AddToTail( iEnt );
#endif
}
void PrintPartialChangeEntsList()
{
if ( !dt_ShowPartialChangeEnts.GetInt() )
return;
#if !defined( _XBOX )
int iCurRow = 15;
Con_NPrintf( iCurRow++, "----- dt_ShowPartialChangeEnts -----" );
Con_NPrintf( iCurRow++, "" );
Con_NPrintf( iCurRow++, "Ent changes: %3d, prop changes: %3d",
g_nTotalEntChanges, g_nTotalPropChanges );
Con_NPrintf( iCurRow++, "" );
char str[512];
bool bFirst = true;
// Write the partial ents.
str[0] = 0;
for ( int i=0; i < g_PartialChangeEnts.Count(); i++ )
{
if ( g_PartialChangeEnts[i] >= 0 )
{
if ( !bFirst )
Q_strncat( str, ", ", sizeof( str ) );
char tempStr[512];
Q_snprintf( tempStr, sizeof( tempStr ), "%d", g_PartialChangeEnts[i] );
Q_strncat( str, tempStr, sizeof( str ) );
bFirst = false;
}
}
Q_strncat( str, " - PARTIAL", sizeof( str ) );
Con_NPrintf( iCurRow++, "%s", str );
// Write the full ents.
bFirst = true;
str[0] = 0;
for ( int i=0; i < g_PartialChangeEnts.Count(); i++ )
{
if ( g_PartialChangeEnts[i] < 0 )
{
if ( !bFirst )
Q_strncat( str, ", ", sizeof( str ) );
char tempStr[512];
Q_snprintf( tempStr, sizeof( tempStr ), "%d", -g_PartialChangeEnts[i] );
Q_strncat( str, tempStr, sizeof( str ) );
bFirst = false;
}
}
Q_strncat( str, " - FULL", sizeof( str ) );
Con_NPrintf( iCurRow++, "%s", str );
g_PartialChangeEnts.Purge();
g_nTotalPropChanges = g_nTotalEntChanges = 0;
#endif
}
void LocalTransfer_TransferEntity(
const CBaseEdict *pEdict,
const SendTable *pSendTable,
const void *pSrcEnt,
RecvTable *pRecvTable,
void *pDestEnt,
bool bNewlyCreated,
bool bJustEnteredPVS,
int objectID )
{
++g_nTotalEntChanges;
CEdictChangeInfo *pCI = &g_pSharedChangeInfo->m_ChangeInfos[pEdict->GetChangeInfo()];
unsigned short propIndices[MAX_CHANGE_OFFSETS*3];
// This code tries to only copy fields expressly marked as "changed" (by having the field offsets added to the changeoffsets vectors)
if ( pEdict->GetChangeInfoSerialNumber() == g_pSharedChangeInfo->m_iSerialNumber &&
!bNewlyCreated &&
!bJustEnteredPVS &&
dt_UsePartialChangeEnts.GetInt()
)
{
CSendTablePrecalc *pPrecalc = pSendTable->m_pPrecalc;
int nChangeOffsets = MapPropOffsetsToIndices( pEdict, pPrecalc, pCI->m_ChangeOffsets, pCI->m_nChangeOffsets, propIndices );
if ( nChangeOffsets == 0 )
return;
AddToPartialChangeEntsList( (edict_t*)pEdict - sv.edicts, true );
FastSortList( propIndices, nChangeOffsets );
// Setup the structure to traverse the source tree.
ErrorIfNot( pPrecalc, ("SendTable_Encode: Missing m_pPrecalc for SendTable %s.", pSendTable->m_pNetTableName) );
CServerDatatableStack serverStack( pPrecalc, (unsigned char*)pSrcEnt, objectID );
serverStack.Init( true );
// Setup the structure to traverse the dest tree.
CRecvDecoder *pDecoder = pRecvTable->m_pDecoder;
ErrorIfNot( pDecoder, ("RecvTable_Decode: table '%s' missing a decoder.", pRecvTable->GetName()) );
CClientDatatableStack clientStack( pDecoder, (unsigned char*)pDestEnt, objectID );
clientStack.Init( true );
// Cool. We can get away with just transferring a few.
for ( int iChanged=0; iChanged < nChangeOffsets; iChanged++ )
{
int iProp = propIndices[iChanged];
++g_nTotalPropChanges;
serverStack.SeekToProp( iProp );
const SendProp *pSendProp = serverStack.GetCurProp();
unsigned char *pSendBase = serverStack.UpdateRoutesExplicit();
if ( pSendBase )
{
const RecvProp *pRecvProp = pDecoder->GetProp( iProp );
Assert( pRecvProp );
clientStack.SeekToProp( iProp );
unsigned char *pRecvBase = clientStack.UpdateRoutesExplicit();
Assert( pRecvBase );
g_PropTypeFns[pRecvProp->GetType()].FastCopy( pSendProp, pRecvProp, pSendBase, pRecvBase, objectID );
}
}
}
// Whereas the below code copies _all_ fields, regardless of whether they were changed or not. We run this only newly created entities, or entities
// which were previously dormant/outside the pvs but are now back in the PVS since we could have missed field updates since the changeoffsets get cleared every
// frame.
else
{
// Setup the structure to traverse the source tree.
CSendTablePrecalc *pPrecalc = pSendTable->m_pPrecalc;
ErrorIfNot( pPrecalc, ("SendTable_Encode: Missing m_pPrecalc for SendTable %s.", pSendTable->m_pNetTableName) );
CServerDatatableStack serverStack( pPrecalc, (unsigned char*)pSrcEnt, objectID );
serverStack.Init();
// Setup the structure to traverse the dest tree.
CRecvDecoder *pDecoder = pRecvTable->m_pDecoder;
ErrorIfNot( pDecoder, ("RecvTable_Decode: table '%s' missing a decoder.", pRecvTable->GetName()) );
CClientDatatableStack clientStack( pDecoder, (unsigned char*)pDestEnt, objectID );
clientStack.Init();
AddToPartialChangeEntsList( (edict_t*)pEdict - sv.edicts, false );
// Copy the properties that require proxies.
CFastLocalTransferPropInfo *pPropList = pPrecalc->m_FastLocalTransfer.m_OtherProps.Base();
int nProps = pPrecalc->m_FastLocalTransfer.m_OtherProps.Count();
for ( int i=0; i < nProps; i++ )
{
int iProp = pPropList[i].m_iProp;
serverStack.SeekToProp( iProp );
const SendProp *pSendProp = serverStack.GetCurProp();
unsigned char *pSendBase = serverStack.GetCurStructBase();
if ( pSendBase )
{
const RecvProp *pRecvProp = pDecoder->GetProp( iProp );
Assert( pRecvProp );
clientStack.SeekToProp( iProp );
unsigned char *pRecvBase = clientStack.GetCurStructBase();
Assert( pRecvBase );
g_PropTypeFns[pRecvProp->GetType()].FastCopy( pSendProp, pRecvProp, pSendBase, pRecvBase, objectID );
}
}
// Transfer over the fast properties.
LocalTransfer_FastType( (int*)0, serverStack, clientStack, pPrecalc->m_FastLocalTransfer.m_FastInt32.Base(), pPrecalc->m_FastLocalTransfer.m_FastInt32.Count() );
LocalTransfer_FastType( (short*)0, serverStack, clientStack, pPrecalc->m_FastLocalTransfer.m_FastInt16.Base(), pPrecalc->m_FastLocalTransfer.m_FastInt16.Count() );
LocalTransfer_FastType( (char*)0, serverStack, clientStack, pPrecalc->m_FastLocalTransfer.m_FastInt8.Base(), pPrecalc->m_FastLocalTransfer.m_FastInt8.Count() );
LocalTransfer_FastType( (Vector*)0, serverStack, clientStack, pPrecalc->m_FastLocalTransfer.m_FastVector.Base(), pPrecalc->m_FastLocalTransfer.m_FastVector.Count() );
}
// The old, slow method to copy all props using their proxies.
/*
int iEndProp = pPrecalc->m_Root.GetLastPropIndex();
for ( int iProp=0; iProp <= iEndProp; iProp++ )
{
serverStack.SeekToProp( iProp );
clientStack.SeekToProp( iProp );
const SendProp *pSendProp = serverStack.GetCurProp();
const RecvProp *pRecvProp = pDecoder->GetProp( iProp );
if ( pRecvProp )
{
unsigned char *pSendBase = serverStack.GetCurStructBase();
unsigned char *pRecvBase = clientStack.GetCurStructBase();
if ( pSendBase && pRecvBase )
{
Assert( stricmp( pSendProp->GetName(), pRecvProp->GetName() ) == 0 );
g_PropTypeFns[pRecvProp->GetType()].FastCopy( pSendProp, pRecvProp, pSendBase, pRecvBase, objectID );
}
}
}
*/
}